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458; 464; 507; 509; Argentine continental slope; Beckman Coulter Laser diffraction particle size analyzer LS 320; DEPTH, sediment/rock; Elevation of event; Event label; Gauge station; GC; GeoB13844-4; GeoB13845-11; GeoB13845-8; GeoB13868-1; GeoB22701-2; GeoB22702-2; GeoB22706-1; GeoB22707-2; GeoB22708-3; GeoB22709-1; GeoB22711-1; GeoB22712-3; GeoB22713-1; GeoB22714-1; GeoB22715-1; GeoB22718-1; GeoB22720-1; GeoB22721-1; GeoB22722-3; GeoB22723-2; GeoB22725-1; GeoB22726-2; GeoB22727-1; GeoB22728-3; GeoB22729-1; GeoB22730-1; GeoB22731-1; GeoB22732-1; GeoB22733-1; GeoB22738-1; GeoB22739-2; GeoB22740-1; GeoB22741-1; GeoB22744-2; Giant box corer; GKG; grain-size; Gravity corer; GS; Latitude of event; Longitude of event; M78/3B; MeBo; MeBo (Meeresboden-Bohrgerät); MeBo70; Meteor (1986); MUC; MultiCorer; Optional event label; Size fraction 0.044-0.04 µm; Size fraction 0.048-0.044 µm; Size fraction 0.053-0.048 µm; Size fraction 0.058-0.053 µm; Size fraction 0.064-0.058 µm; Size fraction 0.07-0.064 µm; Size fraction 0.077-0.07 µm; Size fraction 0.084-0.077 µm; Size fraction 0.093-0.084 µm; Size fraction 0.102-0.093 µm; Size fraction 0.112-0.102 µm; Size fraction 0.123-0.112 µm; Size fraction 0.134-0.123 µm; Size fraction 0.148-0.134 µm; Size fraction 0.162-0.148 µm; Size fraction 0.178-0.162 µm; Size fraction 0.195-0.178 µm; Size fraction 0.214-0.195 µm; Size fraction 0.235-0.214 µm; Size fraction 0.258-0.235 µm; Size fraction 0.284-0.258 µm; Size fraction 0.311-0.284 µm; Size fraction 0.342-0.311 µm; Size fraction 0.375-0.342 µm; Size fraction 0.412-0.375 µm; Size fraction 0.452-0.412 µm; Size fraction 0.496-0.452 µm; Size fraction 0.545-0.496 µm; Size fraction 0.598-0.545 µm; Size fraction 0.657-0.598 µm; Size fraction 0.721-0.657 µm; Size fraction 0.791-0.721 µm; Size fraction 0.869-0.791 µm; Size fraction 0.953-0.869 µm; Size fraction 1.047-0.954 µm; Size fraction 1.149-1.047 µm; Size fraction 1.261-1.149 µm; Size fraction 1.385-1.261 µm; Size fraction 1.520-1.385 µm; Size fraction 1.669-1.520 µm; Size fraction 1.832-1.669 µm; Size fraction 10.78-9.819 µm; Size fraction 101.1-92.1 µm; Size fraction 1041-948.3 µm; Size fraction 11.83-10.78 µm; Size fraction 111-101.1 µm; Size fraction 1143-1041 µm; Size fraction 12.99-11.83 µm; Size fraction 121.8-111 µm; Size fraction 1255-1143 µm; Size fraction 133.7-121.8 µm; Size fraction 1377-1255 µm; Size fraction 14.26-12.99 µm; Size fraction 146.8-133.7 µm; Size fraction 15.65-14.26 µm; Size fraction 1512-1377 µm; Size fraction 161.2-146.8 µm; Size fraction 1660-1512 µm; Size fraction 17.18-15.65 µm; Size fraction 176.9-161.2 µm; Size fraction 18.86-17.18 µm; Size fraction 1822-1660 µm; Size fraction 194.2-176.9 µm; Size fraction 2.000-1.822 mm; Size fraction 2.010-1.832 µm; Size fraction 2.208-2.011 µm; Size fraction 2.423-2.208 µm; Size fraction 2.66-2.423 µm; Size fraction 2.92-2.66 µm; Size fraction 20.70-18.86 µm; Size fraction 213.2-194.2 µm; Size fraction 22.73-20.70 µm; Size fraction 234.1-213.2 µm; Size fraction 24.95-22.73 µm; Size fraction 256.9-234.1 µm; Size fraction 27.38-24.95 µm; Size fraction 282.1-256.9 µm; Size fraction 3.206-2.920 µm; Size fraction 3.519-3.206 µm; Size fraction 3.862-3.519 µm; Size fraction 30.07-27.38 µm; Size fraction 309.6-282.1 µm; Size fraction 33.01-30.07 µm; Size fraction 339.9-309.6 µm; Size fraction 36.24-33.01 µm; Size fraction 373.1-339.9 µm; Size fraction 39.77-36.24 µm; Size fraction 4.241-3.862 µm; Size fraction 4.656-4.241 µm; Size fraction 409.6-373.1 µm; Size fraction 43.67-39.78 µm; Size fraction 449.7-409.6 µm; Size fraction 47.94-43.67 µm; Size fraction 493.6-449.7 µm; Size fraction 5.111-4.656 µm; Size fraction 5.611-5.111 µm; Size fraction 52.63-47.94 µm; Size fraction 541.9-493.6 µm; Size fraction 57.77-52.63 µm; Size fraction 594.9-541.9 µm; Size fraction 6.159-5.611 µm; Size fraction 6.761-6.159 µm; Size fraction 63.42-57.77 µm; Size fraction 653.0-594.9 µm; Size fraction 69.62-63.42 µm; Size fraction 7.421-6.761 µm; Size fraction 716.9-653.0 µm; Size fraction 76.43-69.62 µm; Size fraction 786.9-716.9 µm; Size fraction 8.148-7.422 µm; Size fraction 8.944-8.147 µm; Size fraction 83.90-76.43 µm; Size fraction 863.9-786.9 µm; Size fraction 9.819-8.944 µm; Size fraction 92.1-83.9 µm; Size fraction 948.2-863.9 µm; SO260/1; SO260/1_10-3; SO260/1_11-1; SO260/1_14-1; SO260/1_15-3; SO260/1_16-1; SO260/1_18-1; SO260/1_18-1B; SO260/1_2-2; SO260/1_22-1; SO260/1_24-1; SO260/1_25-1; SO260/1_27-3; SO260/1_28-2; SO260/1_31-1; SO260/1_32-2; SO260/1_33-1; SO260/1_34-3; SO260/1_35-1; SO260/1_36-1; SO260/1_37-1; SO260/1_38-1; SO260/1_39-1; SO260/1_8-2; SO260/1_9-2; SO260/13-2; SO260/2; SO260/2_46-1; SO260/2_47-1B; SO260/2_48-1; SO260/2_49-1; SO260/2_52-1B; Sonne_2; SW Atlantic Ocean (1)
Human impact (1)

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Grain-size distribution of surface sediment samples from SONNE cruise SO260 and METEOR cruise M78 (2021)

Wilckens, Henriette ; Miramontes, Elda ; Schwenk, Tilmann ; [weitere]

PANGAEA

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Publikationsdatum: 2024-02-02

Beschreibung: The aim of this study is to establish a clearer link between contourite features and the oceanographic processes that form them. The data was collected during R/V SONNE cruise SO260 in 2018 and R/V Meteor cruise M78/3 in 2009. Grain size analyses were performed on bulk sediment samples with a Beckman Coulter Laser LS 13 320 at MARUM laboratories using Sodium hexametaphosphate as a dispersant.

Schlagwort(e): 458; 464; 507; 509; Argentine continental slope; Beckman Coulter Laser diffraction particle size analyzer LS 320; DEPTH, sediment/rock; Elevation of event; Event label; Gauge station; GC; GeoB13844-4; GeoB13845-11; GeoB13845-8; GeoB13868-1; GeoB22701-2; GeoB22702-2; GeoB22706-1; GeoB22707-2; GeoB22708-3; GeoB22709-1; GeoB22711-1; GeoB22712-3; GeoB22713-1; GeoB22714-1; GeoB22715-1; GeoB22718-1; GeoB22720-1; GeoB22721-1; GeoB22722-3; GeoB22723-2; GeoB22725-1; GeoB22726-2; GeoB22727-1; GeoB22728-3; GeoB22729-1; GeoB22730-1; GeoB22731-1; GeoB22732-1; GeoB22733-1; GeoB22738-1; GeoB22739-2; GeoB22740-1; GeoB22741-1; GeoB22744-2; Giant box corer; GKG; grain-size; Gravity corer; GS; Latitude of event; Longitude of event; M78/3B; MeBo; MeBo (Meeresboden-Bohrgerät); MeBo70; Meteor (1986); MUC; MultiCorer; Optional event label; Size fraction 0.044-0.04 µm; Size fraction 0.048-0.044 µm; Size fraction 0.053-0.048 µm; Size fraction 0.058-0.053 µm; Size fraction 0.064-0.058 µm; Size fraction 0.07-0.064 µm; Size fraction 0.077-0.07 µm; Size fraction 0.084-0.077 µm; Size fraction 0.093-0.084 µm; Size fraction 0.102-0.093 µm; Size fraction 0.112-0.102 µm; Size fraction 0.123-0.112 µm; Size fraction 0.134-0.123 µm; Size fraction 0.148-0.134 µm; Size fraction 0.162-0.148 µm; Size fraction 0.178-0.162 µm; Size fraction 0.195-0.178 µm; Size fraction 0.214-0.195 µm; Size fraction 0.235-0.214 µm; Size fraction 0.258-0.235 µm; Size fraction 0.284-0.258 µm; Size fraction 0.311-0.284 µm; Size fraction 0.342-0.311 µm; Size fraction 0.375-0.342 µm; Size fraction 0.412-0.375 µm; Size fraction 0.452-0.412 µm; Size fraction 0.496-0.452 µm; Size fraction 0.545-0.496 µm; Size fraction 0.598-0.545 µm; Size fraction 0.657-0.598 µm; Size fraction 0.721-0.657 µm; Size fraction 0.791-0.721 µm; Size fraction 0.869-0.791 µm; Size fraction 0.953-0.869 µm; Size fraction 1.047-0.954 µm; Size fraction 1.149-1.047 µm; Size fraction 1.261-1.149 µm; Size fraction 1.385-1.261 µm; Size fraction 1.520-1.385 µm; Size fraction 1.669-1.520 µm; Size fraction 1.832-1.669 µm; Size fraction 10.78-9.819 µm; Size fraction 101.1-92.1 µm; Size fraction 1041-948.3 µm; Size fraction 11.83-10.78 µm; Size fraction 111-101.1 µm; Size fraction 1143-1041 µm; Size fraction 12.99-11.83 µm; Size fraction 121.8-111 µm; Size fraction 1255-1143 µm; Size fraction 133.7-121.8 µm; Size fraction 1377-1255 µm; Size fraction 14.26-12.99 µm; Size fraction 146.8-133.7 µm; Size fraction 15.65-14.26 µm; Size fraction 1512-1377 µm; Size fraction 161.2-146.8 µm; Size fraction 1660-1512 µm; Size fraction 17.18-15.65 µm; Size fraction 176.9-161.2 µm; Size fraction 18.86-17.18 µm; Size fraction 1822-1660 µm; Size fraction 194.2-176.9 µm; Size fraction 2.000-1.822 mm; Size fraction 2.010-1.832 µm; Size fraction 2.208-2.011 µm; Size fraction 2.423-2.208 µm; Size fraction 2.66-2.423 µm; Size fraction 2.92-2.66 µm; Size fraction 20.70-18.86 µm; Size fraction 213.2-194.2 µm; Size fraction 22.73-20.70 µm; Size fraction 234.1-213.2 µm; Size fraction 24.95-22.73 µm; Size fraction 256.9-234.1 µm; Size fraction 27.38-24.95 µm; Size fraction 282.1-256.9 µm; Size fraction 3.206-2.920 µm; Size fraction 3.519-3.206 µm; Size fraction 3.862-3.519 µm; Size fraction 30.07-27.38 µm; Size fraction 309.6-282.1 µm; Size fraction 33.01-30.07 µm; Size fraction 339.9-309.6 µm; Size fraction 36.24-33.01 µm; Size fraction 373.1-339.9 µm; Size fraction 39.77-36.24 µm; Size fraction 4.241-3.862 µm; Size fraction 4.656-4.241 µm; Size fraction 409.6-373.1 µm; Size fraction 43.67-39.78 µm; Size fraction 449.7-409.6 µm; Size fraction 47.94-43.67 µm; Size fraction 493.6-449.7 µm; Size fraction 5.111-4.656 µm; Size fraction 5.611-5.111 µm; Size fraction 52.63-47.94 µm; Size fraction 541.9-493.6 µm; Size fraction 57.77-52.63 µm; Size fraction 594.9-541.9 µm; Size fraction 6.159-5.611 µm; Size fraction 6.761-6.159 µm; Size fraction 63.42-57.77 µm; Size fraction 653.0-594.9 µm; Size fraction 69.62-63.42 µm; Size fraction 7.421-6.761 µm; Size fraction 716.9-653.0 µm; Size fraction 76.43-69.62 µm; Size fraction 786.9-716.9 µm; Size fraction 8.148-7.422 µm; Size fraction 8.944-8.147 µm; Size fraction 83.90-76.43 µm; Size fraction 863.9-786.9 µm; Size fraction 9.819-8.944 µm; Size fraction 92.1-83.9 µm; Size fraction 948.2-863.9 µm; SO260/1; SO260/1_10-3; SO260/1_11-1; SO260/1_14-1; SO260/1_15-3; SO260/1_16-1; SO260/1_18-1; SO260/1_18-1B; SO260/1_2-2; SO260/1_22-1; SO260/1_24-1; SO260/1_25-1; SO260/1_27-3; SO260/1_28-2; SO260/1_31-1; SO260/1_32-2; SO260/1_33-1; SO260/1_34-3; SO260/1_35-1; SO260/1_36-1; SO260/1_37-1; SO260/1_38-1; SO260/1_39-1; SO260/1_8-2; SO260/1_9-2; SO260/13-2; SO260/2; SO260/2_46-1; SO260/2_47-1B; SO260/2_48-1; SO260/2_49-1; SO260/2_52-1B; Sonne_2; SW Atlantic Ocean

Materialart: Dataset

Format: text/tab-separated-values, 4060 data points

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DATA PANGAEA

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ICES (2023): Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT). (2023)

Pierucci, Andrea ; Nguyen Xuan, Alessandra ; Di Lorenzo, Bianca ; [weitere]

International Council for the Exploration of the Sea (ICES) | Copenhagen, Denmark

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Publikationsdatum: 2023-02-28

Beschreibung: The Working Group on Fisheries Benthic Impact and Trade-offs (WGFBIT) develops methods and performs assessments to evaluate benthic impact from fisheries at regional scale, while con- sidering fisheries and seabed impact trade-offs. In this report, new fishery benthic impact assessments (ToR A) are shown out for several sub- regions in (French Mediterranean, Celtic Seas). For other regions, updates of the whole assess- ment or specific steps only were presented. To further standardise the different components of the WGFBIT approach across all (sub-)re- gional assessments, a more detail overview of those components was compiled. These compo- nents were slightly different among those regions, related to variation in data availability, envi- ronmental characteristics and implementation possibilities among the (sub-)regions. In WGFBIT, assessments are sometimes based on trawl or grab data, which are sampling differ- ent components of the seafloor ecosystem and can have consequences on the created sensitivity layer. Therefore, there is looked in more detail how the sensitivity outcome (and layers) can dif- fer due to the use of benthic data gathered with different gears (grab/core, trawl or video). The preliminary comparability analyses are performed on different levels: (1) based on co-located sampling; (2) comparing sensitivity maps of the (sub-) area, based on different gears. There were differences observed in longevity distribution at locations sampled with different gears and dif- ferences in data and models lead also to differences in the sensitivity layers. The WGFBIT seafloor assessment framework is not the only way to assess benthic impacts from physical disturbance. A discussion session was held on how the future workflow on advice that ICES WGFBIT assessment contribute to, will be organized. Marine sediments harbour significant levels of biodiversity that play a key role in ecosystem functions and services such as biogeochemical cycling, carbon storage and the regulation of cli- mate. Through the removal of fauna, changes in physico-chemical nature and resuspension of sediment, bottom trawling may result in significant changes in the ecosystem functioning of shelf seas. An assumption of the current PD model is that high community biomass implies higher ecosystem functioning. However, total community biomass does not necessarily reflect changes in species and functional trait composition which play a key role in regulating ecosystem func- tions. ToR D is working on an improved understanding of the link between species functional effect traits and proxies and processes for specific ecosystem functions to improve our ability to predict the impact of fishing disturbance on benthic ecosystem functioning more accurately. Links between species traits and biogeochemical parameters and the impact of trawling on these links are being explored using multivariate ordination analyses using different fauna and bioge- ochemical datasets collected in the North Sea, Celtic Sea, Kattegat, Baltic Sea and the eastern Mediterranean. Changes due to trawling in the trajectories of species densities over time and the concurrent changes in the bioturbation and bioirrigation potential of communities are being modelled using a combination of data-driven mechanistic model and a biogeochemical model. We report on the different data analysis methods that ToR D members have developed over the last year.

Beschreibung: ICES

Beschreibung: Published

Beschreibung: Refereed

Schlagwort(e): WGFBIT ; Fishery Benthic Impact ; Benthic Impact ; Human impact ; Fishery management ; Benthos ; Seabed ecoystem

Repository-Name: AquaDocs

Materialart: Report

Format: 112pp.

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ARTIKEL (OA)

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